Solving an Integro-differential equation numerically

조회 수: 58 (최근 30일)
Freyja
Freyja 2015년 3월 28일
댓글: Hewa selman 2021년 12월 23일
Hi, I am interested in writing a code which gives a numerical solution to an integro-differential equation. First off I am very new to integro-differential equations and do not quite understand them so I decided to start simple and would like some help with the first steps. My proposed equation is in the attached picture and the formulas I wish to use are also there though I'm open to suggestions. Even if someone can help me with the first step (just the maths part) where i = 0 I would be very grateful. My goal is to end up with a system of linear algebraic equations which I can then solve with Matlab. Thanks in advance to anyone who takes the time to look at this tricky problem.
Best regards, Freyja

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답변 (3개)

Claudio Gelmi
Claudio Gelmi 2017년 1월 6일
편집: Claudio Gelmi 2017년 1월 9일
Take a look at this solver:
"IDSOLVER: A general purpose solver for nth-order integro-differential equations": http://dx.doi.org/10.1016/j.cpc.2013.09.008
MATLAB solver here (free): http://cpc.cs.qub.ac.uk/summaries/AEQU_v1_0.html
Best wishes,
Claudio
Roger Stafford
Roger Stafford 2017년 1월 9일
I hate to see numerical approximation methods used when there exists a very simple and precise method done by hand. First we designate by K the integral of t*y(t) from 0 to 1, which is unknown as yet. This gives
y(x) = 1 + (K-1/3)*x
Integrating this w.r. to x gives
y(x) = x + (K-1/3)*x^2/2 + C
where C is the unknown constant of integration. However, since y(0) = 0, this implies that C = 0. Now we have
t*y(t) = t^2 + (K-1/3)*t^3/2
Integrating t*y(t) from 0 to 1 gives t^3/3 + (K-1/3)*t^4/8 evaluated at t = 1 minus its value at t = 0, so that gives
K = 1/3 + (K-1/3)*1/8
which has the unique solution K = 1/3. This in turn gives us our final answer:
y(x) = x.
No need for matlab or numerical approximations.
Torsten
Torsten 2015년 3월 30일
i=0:
(y(1/2)-y(0))/(1/2)=1-1/3*0+0*integral_0^1(t*y(t))dt
-> 2*y(1/2)=2*y(0)+1-1/3*0+0*integral_0^1(t*y(t))dt
-> 2*y(1/2)=1
-> y(1/2)=1/2
Now do the same for i=1, and you are done.
Best wishes
Torsten.
  댓글 수: 2
Freyja
Freyja 2015년 4월 4일
Hi Torsten, Thanks for replying, unfortunately it's not quite was I was looking for, but either way I've solved it now so it's all good :)
Thanks anyway :D
Roger Stafford
Roger Stafford 2015년 4월 4일
If you use the trapezoidal approximation to the integral, your exact solution will not quite satisfy your equation. Only if you use an exact integral using 'int' or calculus methods will the equation hold true.

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